This share has grown rapidly while costs have fallen and are projected to continue falling. Wind and solar energy generated 8.5% of worldwide electricity in 2019. Some critical technologies for eliminating energy-related greenhouse gas emissions are not yet mature. To make deep reductions in emissions, infrastructure and technologies that use energy, such as buildings and transport systems, would need to be changed to use clean forms of energy and also to conserve energy. To accommodate larger shares of variable renewable energy, electrical grids require flexibility through infrastructure such as energy storage. For some energy-intensive technologies and processes that are difficult to electrify, many pathways describe a growing role for hydrogen fuel produced from low-emission energy sources. In proposed climate change mitigation pathways that are compatible with limiting global warming to 2 ☌ (3.6 ☏), the world rapidly phases out coal-fired power plants, produces more electricity from clean sources such as wind and solar, and shifts towards using electricity instead of fuels in sectors such as transport and heating buildings. Pathways exist to provide universal access to electricity and clean cooking in ways that are compatible with climate goals, while bringing major health and economic benefits to developing countries. Therefore, the transition to a low-carbon energy system would have strong co-benefits for human health. The burning of fossil fuels and biomass is a major contributor to air pollution, which causes an estimated 7 million deaths each year. Reducing greenhouse gas emissions to levels consistent with the 2015 Paris Agreement will require a system-wide transformation of the way energy is produced, distributed, stored, and consumed. Around 790 million people in developing countries lack access to electricity and 2.6 billion rely on polluting fuels such as wood or charcoal to cook. Carbon capture and storage can be built into power plants to remove their carbon dioxide ( CO 2) emissions, but is expensive and has seldom been implemented.įossil fuels provide 85% of the world's energy consumption and the energy system is responsible for 76% of global greenhouse gas emissions. Switching from coal to natural gas has environmental benefits, including a lower climate impact, but may lead to a delay in switching to more sustainable options.
Nuclear power is a low-carbon source whose historic mortality rates are comparable to wind and solar, but its sustainability has been debated because of concerns about radioactive waste, nuclear proliferation, and accidents. The role of non-renewable energy sources in sustainable energy has been controversial.
However, some renewable energy projects, such as the clearing of forests to produce biofuels, can cause severe environmental damage. Renewable energy sources such as wind, hydroelectric power, solar, and geothermal energy are generally far more sustainable than fossil fuel sources. Most definitions of sustainable energy include considerations of environmental aspects such as greenhouse gas emissions and social and economic aspects such as energy poverty. Clockwise from top left: Concentrated solar power with molten salt heat storage in Spain, wind energy in South Africa, electrified public transport in Singapore, and clean cooking in EthiopiaĮnergy is sustainable if it "meets the needs of the present without compromising the ability of future generations to meet their own needs". Sustainable energy involves increasing production of renewable energy, making safe energy universally available, and energy conservation.